Papers by Stefan Günthner
The invention relates to a sensor (14) for detecting a measured variable (16), comprising: - a se... more The invention relates to a sensor (14) for detecting a measured variable (16), comprising: - a sensor (26) for generating one of the measurement variable (16) dependent sensor signal (38), - a signal processing circuit (28) which is adapted to supply the sensor (26) for generating the timer signal (38) with electrical energy (43) and based on the encoder signal (38) of the measurement variable (16) dependent sensor signal (40 to produce), and - a wiring means (36) on which the sensor (26) and the signal processing circuit (28) are electrically connected to each other, - wherein said wiring means (36) is thermally conductively connected to a heat dissipating element (48) which is adapted to receive heat energy through the wiring means (36) from the signal processing circuit (28) and discharge to the environment.
The invention relates to a method of processing sensor data (8, 16, 26, 28) in a vehicle (2), com... more The invention relates to a method of processing sensor data (8, 16, 26, 28) in a vehicle (2), comprising: - detecting (14, 22, 24) of vehicle dynamics data (16) and chassis sensor data (26, 28) of the vehicle (2), - filtering (30) of the driving dynamics data (16) or the chassis sensor data (26, 28) based on in accordance with the chassis sensor data (26, 28) or the vehicle dynamics data (16).
An electronic component comprising a first circuit carrier (1), at least one electronic element (... more An electronic component comprising a first circuit carrier (1), at least one electronic element (7, 8, 9) connected to the first circuit carrier (1) is connected, and at least a first housing (3), wherein the electronic component at least (a dam bar-rest structure 6) for fixing comprises.
Die Erfindung betrifft einen Sensor (4) zum Erfassen einer Drehrate (8) eines Objektes (6, 20) um... more Die Erfindung betrifft einen Sensor (4) zum Erfassen einer Drehrate (8) eines Objektes (6, 20) umfassend: – ein Geberelement (2), das eingerichtet ist, winklig zur Drehachse (10) der zu erfassenden Drehrate (8) mit einer Anregefrequenz an einem ortsfest am Objekt (6, 20) befestigten Ruckstellelement (14) zu schwingen, so dass das Geberelement (2) aufgrund der Corioliskraft (18) winklig zur Drehachse (10) und winklig zur Schwingungsrichtung (16) in einer Reaktionsrichtung (18) mit einer Reaktionsfrequenz ausgelenkt wird, und – einen Messaufnehmer (32), der eingerichtet ist, die Schwingung in der Reaktionsrichtung (18) zu erfassen, – wobei das schwingungsfahige Geberelement (2) derart ausgebildet ist, dass eine Gegenuberstellung einer temperaturabhangigen Verschiebung eines Frequenzabstandes zwischen der Anregefrequenz und der Reaktionsfrequenz und einer temperaturabhangigen Lage (50) des Geberelementes (2) am Objekt (6, 20) einer vorbestimmten Bedingung genugt.
Sensor, umfassend wenigstens ein Sensorelement (1), zumindest ein Signalverarbeitungselement (2),... more Sensor, umfassend wenigstens ein Sensorelement (1), zumindest ein Signalverarbeitungselement (2), ein Gehause (7), das wenigstens ein Befestigungsmittel aufweist, sowie eine elektrische Schnittstelle zur elektrischen Anbindung des Sensors, wobei der Sensor ein elektrisch und mechanisch verbindendes Tragermittel (4) aufweist, auf welchem das wenigstens eine Sensorelement (1) und das Signalverarbeitungselement (2) angeordnet sind und mit diesem elektrisch verbunden sind, wobei das Tragermittel (4) auch mit der elektrischen Schnittstelle zumindest elektrisch verbunden ist.
The Journal of the Acoustical Society of America, 2007
Angular velocity sensor with a substrate, at least one base element (1), comprising a frame (2), ... more Angular velocity sensor with a substrate, at least one base element (1), comprising a frame (2), a suspension (7) of the frame (2) on the substrate, at least one swing unit (3) and a suspension (4, 5) of the swing unit (3) in the frame (2), a drive means (8) and a reading unit (9, 10), the drive means (8) such being arranged so that influence the frame (2) of the base (1, 11, 12, 13, 14) element, wherein the two base elements (1) connected by a coupling unit (6) angular velocity sensor being oriented the base (1) elements towards each other and rotated through 180 ° and being put into oscillation in antiphase and having a resonant frequency in common, the vibration (3) as seismic mass being arranged in the form of paddle wherein the rotation axis of the paddle is parallel to the driving direction (y).
A micromechanical rotation rate sensor comprising a substrate, whose base is parallel to the xy p... more A micromechanical rotation rate sensor comprising a substrate, whose base is parallel to the xy plane of a Cartesian coordinate system (x, y, z) is aligned with the rotation rate sensor, having at least a first and a second seismic mass (1) the (at least one first drive means 23 ) are coupled and which are suspended so (3, 4), that the first and second seismic mass (1) are driven in antiphase deflectingly in a drive mode, wherein the yaw rate sensor is formed to the rotation rate about at least two mutually substantially can detect orthogonal sensitive axes (z, y), wherein at least the first and second seismic mass (1) so formed and suspended to oscillate in phase opposition in a first reading mode when detecting a first rotational speed about the first sensitive axis (y) and the first and second seismic mass (1) and / or additional seismic masses (10) so formed and suspended (5, 7, 9, 11) to oscillate in detecting a second rate of rotation about the second sensitive axis (z) in a s...
A micromechanical rotation rate sensor comprising at least one substrate, wherein the angular rat... more A micromechanical rotation rate sensor comprising at least one substrate, wherein the angular rate sensor has at least a first and a second seismic mass, which are coupled together by at least one coupling bar, and wherein the angular rate sensor is adapted to detect rotation rates about at least a first and a second sensitive axis may, each seismic mass is assigned at least one actuator, with which the deflection behavior of the seismic mass can be influenced.
L'invention concerne un capteur de vitesse de rotation micromecanique comportant au moins un ... more L'invention concerne un capteur de vitesse de rotation micromecanique comportant au moins un substrat (30), la surface de base du substrat etant alignee parallelement au plan x-y d'un systeme de coordonnees cartesiennes, au moins deux masses sismiques (1, 1a, 1b), et au moins un element de suspension a ressort (10, 11) destine a suspendre chaque masse sismique (1, 1a, 1b) au substrat (30). Les deux masses sismiques ou plus (1, 1a, 1b) sont couplees entre elles par au moins une barre de couplage (2, 2a, 2b) et au moins un des elements de suspension a ressort (10) comporte au moins deux sections de barre (11), qui sont disposees de facon a etre essentiellement paralleles l'une a l'autre lorsqu'elles ne sont pas allongees ou qui forment un angle inferieur a 45°, et une ou plusieurs sections de liaison (12), qui relient les sections de barre (11) entre elles, les sections de barre pouvant etre decalees les unes par rapport aux autres dans leur direction longitudinale.
The invention relates to a method of manufacturing sensor (14) which is adapted to measure a phys... more The invention relates to a method of manufacturing sensor (14) which is adapted to measure a physical quantity based on a physical quantity dependent on the timer field, comprising: - interconnecting a sensor circuit (44) for detecting the field transducer and outputting a dependent timer field sensor signal (16) on a first wiring substrate (32), - interconnecting the first wiring substrate (32) on a second wiring substrate (40), and - encapsulating the second wiring substrate (40) and supported thereon the first wiring substrate (32) to the sensor circuit (44) in an inert mass (38).
The invention relates to a sensor (14) for detecting one of a physical quantity to be measured (1... more The invention relates to a sensor (14) for detecting one of a physical quantity to be measured (16) dependent physical transducer array (32, 38), comprising: - an an upper surface (66) and one of the top side (66) opposite the bottom (68) having the lead frame (48) having a Bestuckinsel (58), an interface (54) and at least two of the interface (54) for Bestuckinsel (58) carrying conductors (62) - supported one on the upper side (66) of the Bestuckinsel (58) of the leadframe (48) sensor circuit (46) for detecting the transmitter field (32, 38) and for outputting a from the transducer array (32, 38) dependent sensor signal (26, 28) via the interface (54), and - a worn on the underside (68) of the leadframe (48) filter component (70 to 76) which is adapted to filter non-operating electrical signals to the conductive traces (62).
The invention relates to a sensor (7) for outputting a sensor signal (10, 11, 12) based on a meas... more The invention relates to a sensor (7) for outputting a sensor signal (10, 11, 12) based on a measured variable to be detected (9), comprising: - a wiring support (26), and - an at least partially by an adhesive (33) on the wiring substrate (26) glued and wired sensor circuit (25) for outputting the sensor signal (10, 11, 12) based on the to be detected measurement variable (9), - wherein an elastic modulus of the adhesive (33) of a modulus of elasticity of the wiring substrate (26) depends.
The invention relates to a process for filtering data in a tire pressure monitoring system of a v... more The invention relates to a process for filtering data in a tire pressure monitoring system of a vehicle (2), comprising: - detecting (10, 22, 26, 28) of a tire is dependent on the radius size of a wheel of the vehicle (2), - filtering (30) of tire radius is dependent on the size based on vehicle dynamics data and / or hereinafter called GNSS signal to a Global Navigation Satellite System signal.
The invention relates to a sensor (14) for detecting one of a physical quantity to be measured (1... more The invention relates to a sensor (14) for detecting one of a physical quantity to be measured (16) dependent physical transducer array (32, 38), comprising: - a sensor circuit (46) for detecting the transmitter field (32, 38) and for outputting a field from the transducer (32, 38) dependent sensor signal (26, 28), - a circuit carrier (48) having a first region (68) in which at least one part (34) of the sensor circuit (46) is supported and a second portion (70), in which at least one first mechanical interface (52) and a second mechanical interface (52) for connecting the circuit carrier (48) on a holder (56) is arranged, and - a between the first portion (68) and the second region (70) arranged acoustically resistive member (66), of being arranged over the first mechanical interface (52) entering borne sound (64) to direct to the second mechanical interface (52).
A micromechanical rotation rate sensor comprising a substrate, whose base is parallel to the xy p... more A micromechanical rotation rate sensor comprising a substrate, whose base is parallel to the xy plane of a Cartesian coordinate system (x, y, z) is aligned with the rotation rate sensor, having at least a first (1) and a second seismic mass (2), the first having at least one drive means (14) are coupled and which are suspended so that the first and second seismic mass (2) are driven in antiphase deflectingly in a drive mode, wherein the yaw rate sensor is formed such that it at least two substantially mutually orthogonal sensitive rotation rate can detect axes (z, y), wherein at least the second seismic mass (2) is designed as a frame, said first seismic mass (1) with respect to the positioning in the xy plane at least partially surrounds.
The invention relates to a method for producing an electronic device (10), comprising: - sheathin... more The invention relates to a method for producing an electronic device (10), comprising: - sheathing an electronic assembly (44) with a first sheath material (58), - holding the electronic assembly (44) sheathed with the first sheath material (58) Holding element (68), such that the holding element (68) is spaced from the electronic assembly (44) via the first jacket material (58), and - sheathing the assembly (44) held on the holding element (68) with a second jacket material ( 62).
The invention relates to a device (16) for distributing data (56, 64, 68) on a vehicle comprising... more The invention relates to a device (16) for distributing data (56, 64, 68) on a vehicle comprising: - a first sensor data receive interface (26 to 32, 78) for receiving the first sensor data (40 to 50, 76) from a first sensor (34 to 38, 52), - a second sensor data receive interface (26 to 32, 78) for receiving the second sensor data (40 to 50, 76) from a second sensor (34 to 38, 52), and - a transmitting interface (33) for transferring the data (56, 64, 68) of the vehicle based on the first sensor data (40 to 50, 76) and the second sensor data (40 to 50, 76) to a receiver (6 to 12, 60).
Composant electronique comprenant un premier porte-circuit (1), au moins un element electronique ... more Composant electronique comprenant un premier porte-circuit (1), au moins un element electronique (7, 8, 9), qui est relie au premier porte-circuit (1), et au moins un premier boitier (3), le composant electronique comportant au moins une structure residuelle de cadre (6) pour la fixation.
The invention relates to a method for producing an electronic assembly (14) in which a wiring on ... more The invention relates to a method for producing an electronic assembly (14) in which a wiring on a carrier (32) supported electronic component (26, 30) is encapsulated with an encapsulation material (38), comprising: - disposing the electronic component (26, 30) on the wiring substrate (32) such that a stress entry through the encapsulation material (38) on the electronic component (26, 30) falls below a predetermined value, and - encapsulating the electronic component (26, 30) with the encapsulation material (38).
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Papers by Stefan Günthner